Systems and methods for maintaining sheave grooves

ABSTRACT

A test kit for unevenly worn sheave grooves, a tool for regrooving sheave grooves that are found to be unevenly worn, and a method for testing for and maintaining the sheave grooves utilizing the test kit and tool. The test kit includes magnetic standards which adhere to a sheave beneath the portion of the sheave touched by the ropes, facilitating testing without having to unrope the sheave. Unevenly worn sheave grooves are visually ascertained by holding a straightedge adjacent to the magnetic standards. The regrooving tool includes a shank that can be received by a stand set up next to the sheave, a body attached to the shank, and an interchangeable cutting insert received by the body that is inserted in the sheave groove. When the sheave is rotated, the sheave groove is ground by the cutting insert, with each groove being ground sequentially until all grooves are again uniform.

PRIORITY CLAIM

The present application constitutes a continuation of U.S. patentapplication Ser. No. 13/401,626, entitled SYSTEMS AND METHODS FORMAINTAINING SHEAVE GROOVES, naming ROBERT D. WILSON, JR.; CHRISTIAN E.THOMSEN; JAMES WATSON; KEEGAN CARRIVEAU; and MAX WILSON as inventors,filed 21 Feb. 2012, which is currently co-pending. This inventionfurther claims the benefit of U.S. provisional patent application Ser.No. 61/444,686 filed Feb. 18, 2011 and U.S. provisional patentapplication Ser. No. 61/444,687 filed Feb. 18, 2011. The foregoingapplications are incorporated by reference in their entirety as if fullyset forth herein.

FIELD OF THE INVENTION

This invention relates generally to mechanics, and more specifically, tosystems and methods for maintaining sheave grooves.

BACKGROUND

A sheave is a wheel or roller with one or more grooves along thecircumference for holding a rope or cable (hereafter, rope will be usedto refer to either a rope or a cable). When supported on its sides andequipped with a rope, a sheave becomes a pulley.

In some applications, the sheave has two or more grooves for holding twoor more ropes. The sheave grooves grip the ropes, so when the sheave isrotated, the ropes and the load the ropes support move too.

Over time, as the load supported by the sheave is moved, rotating therope through the sheave grooves, the sheave grooves wear. Particularly,if one of the sheave grooves begins to wear unevenly, the loadmaintained by the sheave grooves becomes uneven which may accelerate thewear of a particular sheave groove. Sheaves which are not used forsupport, such as deflector sheaves or other types of sheaves, may alsowear unevenly.

Periodically, a sheave may be regrooved so that all grooves have an evendepth of the groove, and uniform U-shape or V-shape (the two shapes inwhich sheave grooves are typically cut) across all the grooves. In someapplications, it can be difficult to test for sheave groove wear, as theropes or cables themselves may block access to the grooves. Yet suchtesting is required by sound maintenance practice, as well as inperiodic inspections. Further, current regrooving techniques for sheavesare suboptimal.

Accordingly, this application discloses systems and methods formaintaining sheave grooves.

SUMMARY

This invention relates generally to mechanics, and more specifically, tosystems and methods for maintaining sheave grooves.

In some embodiments, a sheave groove test kit may comprise two or moremagnetic standards and a straight-edge bar. In some embodiments, amagnetic standard may be placed in each sheave groove on an underside ofthe sheave not in contact with ropes. In some embodiments, astraight-edge bar may be held adjacent to the magnetic standards, andany gap between the straight-edge bar and magnetic standards mayindicate a worn sheave groove in need of regrooving.

In some embodiments, a tool for regrooving a sheave groove may include abody, a body clamp, a shank, and a cutting insert. In some embodiments,a tool for regrooving a sheave groove may be received by a stand that isknown in the art for receiving a device configured for maintaining asheave groove. In some embodiments, a tool for regrooving a sheavegroove has a cylindrical cutting insert, and the tool further has acutter backing of the body designed to prevent deflection of thecylindrical cutting insert during regrooving operations. In someembodiments, a sheave groove may be maintained by holding a sheavegroove tool against a sheave groove to be maintained, operating thedriver of the sheave to rotate the sheave, allowing the cutting insertin contact with the sheave groove to grind the sheave groove to auniform condition.

In some embodiments, a method for maintaining sheave grooves may includeproviding a sheave groove test kit, providing a regroove tool,determining, using the test kit, whether one or more grooves of a sheaverequire regrooving, and regrooving, using the regroove tool, and of theone or more grooves of the sheave that require regrooving.

BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments of the present invention are described in detail below withreference to the following drawings:

FIGS. 1 a, 1 b, 1 c, 1 d, 1 e and 1 f are depictions of the prior art;

FIG. 2 is a perspective view of a sheave groove test kit, in accordancewith an embodiment of the invention;

FIG. 3 is a perspective view of a sheave groove test kit, in accordancewith an embodiment of the invention;

FIGS. 4 a and 4 b are front views of a sheave groove test kit, inaccordance with an embodiment of the invention;

FIGS. 5 a and 5 b are front views of a sheave groove test kit, inaccordance with an embodiment of the invention;

FIGS. 6 a and 6 b are front views of a sheave groove test kit, inaccordance with an embodiment of the invention;

FIGS. 7 a and 7 b are front views of a sheave groove test kit, inaccordance with an embodiment of the invention;

FIGS. 8 a and 8 b are a top view and a perspective view of a sheavegroove regroove tool, in accordance with an embodiment of the invention;

FIGS. 9 a, 9 b and 9 c are perspective views of a sheave groove regroovetool, in accordance with an embodiment of the invention;

FIGS. 10 a and 10 b are perspective views of a sheave groove regroovetool, in accordance with an embodiment of the invention;

FIGS. 11 a and 11 b are a front view and a perspective view of a sheavegroove regroove tool, in accordance with an embodiment of the invention;

FIG. 12 is a flow diagram of a method for maintaining sheave grooves, inaccordance with an embodiment of the invention;

FIG. 13 is a flow diagram of a method for maintaining sheave grooves, inaccordance with an embodiment of the invention;

FIG. 14 is a flow diagram of a method for maintaining sheave grooves, inaccordance with an embodiment of the invention; and

FIG. 15 is a flow diagram of a method for maintaining sheave grooves, inaccordance with an embodiment of the invention.

DETAILED DESCRIPTION

This invention relates generally to elevators, and more specifically, toan elevator life safety gate. Specific details of certain embodiments ofthe invention are set forth in the following description and FIGS. 1-15to provide a thorough understanding of such embodiments. The presentinvention may have additional embodiments, may be practiced without oneor more of the details described for any particular describedembodiment, or may have any detail described for one particularembodiment practiced with any other detail described for anotherembodiment.

FIG. 1 a is a depiction of the prior art. In an exemplary environment, asheave may be used in the application of an elevator. It should beunderstood that an elevator is used herein strictly as an example, andthe teachings of the instant disclosure apply to sheaves used in anyapplication, such as with an inclinator, a pulley, a rigging, anautomobile or a lawn mower. Further, within the application of anelevator, a sheave may be a main drive sheave, or may be a deflectorsheave, or any other type of sheave.

In the exemplary environment depicted in FIG. 1 a, a sheave 1 is shownat the top of an elevator shaft. Ropes 2 are looped over the top of thesheave 1 and are gripped by sheave grooves (sheave grooves not visiblein FIG. 1 a but seen in FIG. 1 b). The ropes 2 have a load at eitherend, in this case an elevator car 38 and a counterweight 39. The sheave1 is supported in part by a shaft 4, the shaft 4 being connected to amotor 3 which when operated rotates the sheave 1, thus moving the loadup and down. In this case, the motor 3 drives (rotates) the sheave 1which either moves the elevator car 38 up and the counterweight 39 down,or vice-versa. The motor 3 is a “driver” of the sheave 1.

FIG. 1 b is a depiction of the prior art. A sheave 1 has one or moresheave grooves 5 along the circumference of the sheave 1. (In FIG. 1 b,a sheave 1 with five sheave grooves 5 is shown.) The edges of thecircumference of the sheave 1 are lips 6 of the sheave 1, one lip 6 oneither side of the one or more sheave grooves 5. Protruding through thecenter of the sides of the sheave 1 is the shaft 4. In FIG. 1 b, thesheave 1 has a cross-section A-A depicted, which cuts through the sheavefrom the shaft 4 and slices downward to the bottom edge of the sheave 1.This cross section will be discussed in more detail with respect toFIGS. 1 c-1 f.

FIGS. 1 c-1 f are depictions of the prior art. In FIG. 1 c, a portion ofthe cross-section A-A is shown. Particularly, a bottom edge of thecross-section depicting the sheave grooves and the lip of the sheave 1are shown. FIG. 1 c depicts a sheave in which the sheave grooves 7 inbetween the lips 6 of the sheave have no wear. Sheave grooves 7 areU-groove style sheave grooves, and have a uniform shape and depth. Sucha sheave 1 would not need regrooving.

In FIG. 1 d, a portion of the cross-section A-A of a sheave 1 is shown,also having lips 6 and sheave grooves 7 & 8 between the lips 6. In thisexample, using U-grooves, two of the grooves 8 are exhibiting signs ofuneven wear while three grooves 7 show no wear. The three unworn grooves7 maintain their uniform shape and depth, but the two worn grooves 8 aredeeper than the unworn grooves 7. In more extreme cases of wear, theworn grooves may be misshapen, having lost their U-groove appearance, ormay be wider than unworn grooves. FIG. 1 d depicts sheave grooves thatmay be regrooved to return the plurality of grooves to a uniformcondition.

In FIG. 1 e, a portion of the cross-section A-A of a sheave 1 usingV-grooves is shown. (Some sheaves use V-grooves instead of U-grooves,the description U-groove or V-groove owing to the shape of the groove.)FIG. 1 e shows five V-grooves 7 that have a uniform shape and depth. Thefive V-grooves 7 in FIG. 1 e are unworn grooves. This sheave 1 does notneed regrooving.

In FIG. 1 f, a portion of the cross-section A-A of a sheave 1 usingV-grooves is shown, this cross-section having at least one worn V-groove8, where it can be seen that the V-groove is not uniform relative to theunworn V-grooves 7. FIG. 1 f depicts sheave grooves that may beregrooved to return the plurality of grooves to a uniform condition.

FIG. 2 is a perspective view of a sheave groove test kit, in accordancewith an embodiment of the invention. In some embodiments, a sheavegroove test kit 10 may have two or more magnetic standards 11, themagnetic standards 11 being a plurality of cylinders of uniform shapeand size that are magnetic. In some embodiments, the cylindricalmagnetic standards have a diameter of ½″. In different embodiments, thecylindrical magnetic standards have a diameter of ⅝″. The measurements½″ and ⅝″ correspond with two common groove sizes for the exemplaryelevator sheave grooves. In other embodiments, the cylindrical magneticstandards have other diameters sized appropriately for the sheave beingtested. A cylindrical magnetic standard may be as small as 0.01″ indiameter or may be as large as 48″ in diameter. In some embodiments, acylindrical magnetic standard is not magnetic. In different embodiments,the magnetic standards are not cylindrical. In some embodiments, themagnetic standards are v-shaped.

In some embodiments, a sheave groove test kit 10 may include one or morestraight-edge bars 12. In some embodiments, a sheave groove test kit 10may include a straight-edge bar 12 sized to fit inside and in betweenthe lips of a sheave. In some embodiments, a sheave groove test kit 10may include a straight-edge bar 12 sized to rest on top of the lips of asheave, or merely to rest on top of the magnetic standards in the caseof a sheave without lips on the edge of the circumference of the sheave.

FIG. 3 is a perspective view of a sheave groove test kit, in accordancewith an embodiment of the invention. To test for worn sheave grooves ofa particular sheave 1, a magnetic cylinder 11 may be placed in eachsheave groove 5 of the sheave. The magnetic standards 11 adhere to thesheave grooves 5 of the sheave. The magnetic standards 11 may be placedon the underside of the sheave 1 in areas of the grooves 5 that are notin contact with the ropes 2, and the magnetic quality of the magneticstandards 11 will hold the standards 11 in place and prevent thestandards 11 from falling out of the grooves 5. This is advantageousbecause the ropes 2 do not have to be disengaged from the sheave 1 toprovide access to the grooves 5 for testing or inspection.

FIGS. 4 a and 4 b are front views of a sheave groove test kit, inaccordance with an embodiment of the invention. FIG. 4 a shows across-section of a sheave 1, with unworn U-grooves 7. Magnetic standards11 have been inserted in each of the unworn U-grooves 7. FIG. 4 b showsholding a straight-edge bar 12 adjacent to the magnetic standards 11. Inthis example, the straight-edge bar 12 is touching each of the magneticstandards 11, revealing through a visual confirmation that the U-grooves7 are uniform and that sheave regrooving is not required.

FIGS. 5 a and 5 b are front views of a sheave groove test kit, inaccordance with an embodiment of the invention. FIG. 5 a shows across-section of a sheave 1, but with both unworn U-grooves 7 and wornU-grooves 8. Magnetic standards 11 have been inserted in each of thegrooves. FIG. 5 b shows holding a straight-edge bar 12 adjacent to themagnetic standards 11. In this example, the straight-edge bar 12 is nottouching each of the magnetic standards 11. There is a gap between thestraight-edge bar 12 and the magnetic standards inserted in the wornU-grooves 8, revealing through a visual confirmation that the U-groovesare non-uniform and that sheave regrooving is required.

In some instances, it may be that the wear of the grooves of the sheavehas occurred evenly from right to left (or from left to right), in thatthe depths of the grooves are non-uniform but that the rate of change ofthe groove depths from one direction to the other is constant. In anexample of a sheave with five grooves, the left-most groove could beunworn, the next groove to the right could be 0.1″ deeper, the nextgroove to the right could be 0.2″ deeper, the next groove to the rightcould be 0.3″ deeper, with the last groove being 0.4″ deeper. In thisinstance the straight-edge bar would still contact all the magneticstandards inserted into the grooves. However, it would be visuallyapparent in this instance that the straight-edge bar was not levelrelative to the lips of the sheave, and thus even in this rare casewhere the sheave groove wear is itself uniform the test kit will stillreveal sheave grooves needing regrooving.

FIGS. 6 a and 6 b are front views of a sheave groove test kit, inaccordance with an embodiment of the invention. FIG. 6 a shows across-section of a sheave 1, with unworn V-grooves 7. Magnetic standards11 have been inserted in each of the unworn V-grooves 7. FIG. 6 b showsholding a straight-edge bar 12 adjacent to the magnetic standards 11. Inthis example, the straight-edge bar 12 is touching each of the magneticstandards 11, revealing through a visual confirmation that the V-grooves7 are uniform and that sheave regrooving is not required.

FIGS. 7 a and 7 b are front views of a sheave groove test kit, inaccordance with an embodiment of the invention. FIG. 7 a shows across-section of a sheave 1, but with both unworn V-grooves 7 and wornV-grooves 8. Magnetic standards 11 have been inserted in each of thegrooves. FIG. 7 b shows holding a straight-edge bar 12 adjacent to themagnetic standards 11. In this example, the straight-edge bar 12 is nottouching each of the magnetic standards 11. There is a gap between thestraight-edge bar 12 and the magnetic standards inserted in the wornU-grooves 8, revealing through a visual confirmation that the U-groovesare non-uniform and that sheave regrooving is required.

FIGS. 8 a and 8 b are a top view and a perspective view of a sheavegroove regroove tool, in accordance with an embodiment of the invention.In some embodiments, a sheave groove regroove tool 20 has a body 21 anda shank 32. The body 21 and shank 32 may be separated and are coupledusing shank threaded fasteners 33 (which will be discussed in furtherdetail relative to FIGS. 10 a and 10 b). The body 21 has a cuttinginsert 26, the cutting insert 26 being held in place in the body 21 witha body clamp 22. A cutter backing 28 of the body 21 prevents deflectionof the cutting insert 26 during regrooving operations.

FIGS. 9 a, 9 b and 9 c are perspective views of a sheave groove regroovetool, in accordance with an embodiment of the invention. In someembodiments, a cutting insert 26 may be generally cylindrical, with acutting insert shaft portion 30 and a portion having staggered cuttingteeth 29. The teeth 29 come into contact with a U-groove and thegenerally cylindrical configuration of the cutting insert 26 grinds anew and uniform surface of a U-groove of a sheave. In differentembodiments, a cutting insert 26 may have a portion between the ends ofthe shaft that is V-shaped or triangular instead of cylindrical, theV-shaped or triangular portion configured to grind a new and uniformsurface of a V-groove of a sheave.

In some embodiments, a body 21 of the tool 20 has a cutter backing 28.The cutter backing 28 is configured for preventing deflection of thecutting insert 26 as the tool 20 is inserted into a sheave groove. Ascan be seen more clearly in FIGS. 11 a and 11 b, a sheave grooveregroove tool 20 is inserted into and held against a sheave groove 5.The sheave driver is operated, rotating the sheave 1 about the shaft 4,and the cutting insert 26 of the tool grinds the groove back to auniform condition. The cutter backing 28 resists any deflection from thecutting insert 26 resulting from the tool 20 being held against thesheave 1.

Returning to FIGS. 9 a, 9 b and 9 c, an appropriately sized andconfigured cutting insert 26 may be chosen for use with the tool 20 byinstalling the correct insert into the body 21. A cutting insert 26 maybe sized to cut a ½″ groove, or a ⅝″ groove, for example. Other sizes ofcutting inserts ranging from 0.01″ to 48″ are possible. The body 21 hasa cutting insert channel 27 configured for receiving a portion of thecutting insert shaft 30. Once the cutting insert shaft 30 of the cuttinginsert 26 slides into the cutting insert channel 27, the body clamp 22can be coupled with the body 21. The body clamp 22 also has a cuttinginsert channel 27 configured for receiving a portion of the cuttinginsert shaft 30. The body 21 has threaded apertures 23 configured forreceiving threaded fasteners 25. The body clamp 22 has counter-boredapertures 24 configured for receiving the threaded fasteners 25. Thebody clamp 22, having received a portion of the cutting insert shaft 30,is placed into position adjacent to the body 21, and threaded fasteners25 are inserted into the counter-bored apertures 24 and threaded intothe threaded apertures 23 and tightened. Removal of the cutting insert26 to replace it with a different insert is a reverse of theforegoing-described operation. Alternatively, the threaded fasteners 25may be loosened permitting rotation of the cutting insert 26, to presenta fresh surface of the cutting insert to the sheave during regroovingoperations, as the regrooving may wear away the teeth of the cuttinginsert.

Advantageously, the cutting insert 26 is supported by at least two mountpoints of the body 21, and at least one mount point of the body is oneither side of a longitudinal axis through the shank. In someembodiments, one mount point is where the cutting insert 26 is insertedinto the body 21 at the cutting insert channel 27 of the body 21, andthe other mount point is where the cutting insert 26 is inserted intothe body clamp 22 at the cutting insert channel 27 of the body clamp 22.When the tool 20 is used to grind a sheave groove, the cutting insert issupported both above and below the point at which the cutting insert 26comes into contact with the sheave groove, reducing chatter during thegrooving operation and providing a clean groove.

FIGS. 10 a and 10 b are perspective views of a sheave groove regroovetool, in accordance with an embodiment of the invention. A body 21 of asheave groove regroove tool 20 may have a plurality of body shankthreaded apertures 31. The body shank threaded apertures 31 may bedivided into two groups of apertures, wherein one threaded aperture fromeach of the two groups is used for coupling the shank 32 using thethreaded fasteners of the shank 33. In FIG. 10 a, it may be seen thatthe threaded fasteners of the shank 33 are inserted into the middleapertures of the two groups of body shank threaded apertures 31. In FIG.10 b, it may be seen that the threaded fasteners of the shank 33 areinserted into the top apertures of the two groups of body shank threadedapertures 31. In this manner, the body 21 can be moved up and downrelative to the shank 32, presenting a fresh surface of the cuttinginsert to the sheave during regrooving operations, as the regrooving maywear away the teeth of the cutting insert.

FIGS. 11 a and 11 b are a front view and a perspective view of a sheavegroove regroove tool, in accordance with an embodiment of the invention.To regroove a particular groove 5 of a sheave 1, a sheave grooveregroove tool 20 may be inserted into and held against a sheave groove5. The sheave driver is operated, rotating the sheave 1 about the shaft4, and the cutting insert 26 of the tool 20 grinds the groove 5 back toa uniform condition.

In some embodiments, a tool 20 will be coupled with a stand configuredfor receiving a regrooving device. Such stands are known in the art. Astand is set up in front of the sheave to be regrooved, with the frontedge of the stand parallel to a line between the lips of the sheave. Thestand receives the regrooving device and permits the device to slidefrom stations between one side of the stand to the other side, withstations corresponding to the grooves of the sheave, and permits thedevice to be coupled with the sheave at a constant distance from thesheave resulting in a constant depth groove being cut into the sheave.

FIG. 12 is a flow diagram for a method of maintaining sheave grooves, inaccordance with an embodiment of the invention. In some embodiments,exemplary operational flow 100 can be used to maintain sheave grooves.After a start operation, the operational flow includes a step ofproviding a sheave groove test kit 40, providing a regroove tool 42,determining, using the test kit, whether one or more grooves of a sheaverequire regrooving 44, and regrooving, using the regroove tool, and ofthe one or more grooves of the sheave that require regrooving 46.Operation of the embodiment may be illustrated with reference to thetest kit of FIGS. 2 through 7 b, the regroove tool of FIGS. 8 a through10 b, and the regrooving operation of FIGS. 11 a and 11 b.

FIG. 13 is a flow diagram for a method of maintaining sheave grooves, inaccordance with an embodiment of the invention. In some embodiments, thedetermining, using the test kit, whether one or more grooves of a sheaverequire regrooving step 44 may include at least one additionaloperation. The at least one additional operation may include anoperation 442 and/or an operation 444 and/or an operation 446. Theoperation 442 includes inserting a magnetic standard in each groove onthe underside of the sheave not obstructed by a rope. The operation 444includes holding a straight-edge bar adjacent to the magnetic standards.The operation 446 includes confirming which of the sheave groovesrequire regrooving.

FIG. 14 is a flow diagram for a method of maintaining sheave grooves, inaccordance with an embodiment of the invention. In some embodiments, theregrooving, using the regroove tool, any of the one or more grooves ofthe sheave that require regrooving step 46 may include at least oneadditional operation. The at least one additional operation may includean operation 462 and/or an operation 464 and/or an operation 466 and/oran operation 468 and/or an operation 470 and/or an operation 472 and/oran operation 474.

The operation 462 includes choosing a cutting insert appropriately sizedfor the sheave grooves requiring regrooving. The operation 464 includesinserting the cutting insert into the body of the regroove tool. Theoperation 466 includes rotating the cutting insert so that a face of thecutting insert that will come into contact with the groove has a freshcutting surface. The operation 468 includes locking the cutting insertinto the body of the regroove tool. The operation 470 includes attachingthe body of the regroove tool to the shank of the regroove tool so thata face of the cutting insert that will come into contact with the groovehas a fresh cutting surface. The operation 472 includes positioning thetool on a stand for regrooving a first groove, comprising attaching theshank of the regroove tool to the stand at a particular attachmentpoint, the particular attachment point resulting in a certain regroovingdepth. The operation 474 includes operating a driver of the sheave untilthe groove is regrooved.

FIG. 15 is a flow diagram for a method of maintaining sheave grooves, inaccordance with an embodiment of the invention. In some embodiments, theregrooving, using the regroove tool, any of the one or more grooves ofthe sheave that require regrooving step 46 may include at least oneoptional operation. The at least one optional operation may include anoperation 476 and/or an operation 478. The operation 476 includespositioning the tool on the stand for regrooving an additional groove,comprising sliding the shank of the regroove tool on the stand to adifferent attachment point corresponding to the additional groove, thedifferent attachment point having the same regrooving depth as theregrooving depth of the first groove. The operation 478 includesrepeating the regrooving steps until all grooves are regrooved.

While preferred and alternative embodiments of the invention have beenillustrated and described, as noted above, many changes can be madewithout departing from the spirit and scope of the invention.Accordingly, the scope of the invention is not limited by the disclosureof these preferred and alternate embodiments. Instead, the inventionshould be determined entirely by reference to the claims that follow.

What is claimed is:
 1. A regroove tool, comprising: a shank configuredto be received by a stand; a cutting insert configured for cutting agroove of a sheave, including at least: a shaft, the shaft having acylindrical first end and a cylindrical second end; and a cuttingsection, the cutting section including at least a plurality of staggeredcutting teeth, the cutting section disposed about the shaft in betweenthe first end and the second end of the shaft; a body configured toreceive the cutting insert at two or more mount points of the body,wherein at least one mount point is on either side of a longitudinalaxis through the shank, including at least: a first cutting insertchannel, the first cutting insert channel disposed at a first end of thebody; and a second cutting insert channel, the second cutting insertchannel disposed within a body clamp, wherein an end of the cuttinginsert is inserted into the first cutting insert channel of the body andthe opposite end of the cutting insert is inserted into the secondcutting insert channel of the body clamp, and wherein the first cuttinginsert channel is a first mount point of the body and the second cuttinginsert channel is a second mount point of the body, wherein the firstand second mount points are on opposing sides of the longitudinal axisthrough the shank.
 2. The regroove tool of claim 1, wherein the cuttinginsert configured for cutting a groove of a sheave is a cylindricalcutting insert configured for cutting a U-groove of a sheave.
 3. Theregroove tool of claim 1, wherein the cutting insert configured forcutting a groove of a sheave is a triangular cutting insert configuredfor cutting a V-groove of a sheave.
 4. The regroove tool of claim 1,wherein the cutting insert configured for cutting a groove of a sheaveis a cutting insert with staggered cutting teeth configured for cuttinga groove of a sheave.
 5. The regroove tool of claim 1, wherein the bodyconfigured to receive the cutting insert further comprises a cuttinginsert backing.
 6. The regroove tool of claim 1, wherein the bodyconfigured to receive the cutting insert at two or more mount points ofthe body comprises: a body having a recess for receiving the body clamp;and a plurality of threaded apertures disposed within the recess forreceiving the body clamp.
 7. The regroove tool of claim 6, wherein thecutting insert is mounted within the body by inserting the cuttinginsert into the first and second cutting insert channels, threading aplurality of threaded fasteners through the body clamp and into theplurality of threaded apertures disposed within the recess for receivingthe body clamp, and tightening the threaded fasteners.
 8. A system formaintaining sheave grooves, comprising: a sheave groove test kit; and aregroove tool, including at least: a shank configured to be received bya stand; a cutting insert configured for cutting a groove of a sheave,including at least: a shaft, the shaft having a cylindrical first endand a cylindrical second end; and a cutting section, the cutting sectionincluding a plurality of staggered cutting teeth, the cutting sectiondisposed about the shaft in between the first end and the second end ofthe shaft; a body configured to receive the cutting insert at two ormore mount points of the body, wherein at least one mount point is oneither side of a longitudinal axis through the shank, including atleast: a first cutting insert channel, the first cutting insert channeldisposed at a first end of the body; and a second cutting insertchannel, the second cutting insert channel disposed within a body clamp,wherein an end of the cutting insert is inserted into the first cuttinginsert channel of the body and the opposite end of the cutting insert isinserted into the second cutting insert channel of the body clamp, andwherein the first cutting insert channel is a first mount point of thebody and the second cutting insert channel is a second mount point ofthe body, wherein the first and second mount points are on opposingsides of the longitudinal axis through the shank.